Comprehension # 6
A `1 kg` block is given a velocity of `15 m//s` towards right over a very long rough plank of mass `2 kg` as shown in figure.

figure. If coefficient of friction between the two blocks is equal to 0.4Momentum of both the blocks are equal at time `t = ……. s` :

Comprehension # 6 A 1 kg block is given a velocity of 15 m//s towards right over a very long rough plank of mass 2 kg as shown in figure. If coefficient of friction between the two blocks is equal to 0.4 , then magnitude of initial slope of p_(1) versus t and p_(2) versus t (in SI unit) will be :-

Comprehension # 6 A 1 kg block is given a velocity of 15 m//s towards right over a very long rough plank of mass 2 kg as shown in figure. The correct graph showing linear momentum of 1 kg (i.e. p_(1) ) and of 2 kg (i.e. p_(2) ) versus time is :

For the arrangement shown in the figure the coefficient of friction between the two blocks is mu . If both the blocks are identical and moving ,then the acceleration of each block is

A force of 100 N is applied on a block of mass 3 kg as shown in figure. The coefficient of friction between the surface and the block is 1/4 .Then the friction force acting on the block is

A block of mass 10 kg is moving on a rough surface as shown in figure. The frictional force acting on block is :-

A force of 200N is applied as shown in the figure on block of 3 kg. The coefficient of friction between the block and the wall is 0.3. Find the friction acting on the block. (in N) {Take g = 10 m//s^(2)

Two blocks (from very far apart) are approaching towards each other with velocities as shown in figure. The coefficient of friction for the blocks is mu=0.2 . Linear momentum of the system is

A block A slides over an another block B which is placed over a smooth inclined plane as shown in figure . The coefficient of friction between the two blocks A and B is mu . Mass of block B is two times the mass of block A . The acceleration of the centre of mass of two blocks is

Two block of masses m1 and m2 are connected with a massless unstretched spring and placed over a plank moving with an acceleration 'a' as shown in figure. The coefficient of friction between the blocks and platform is mu

A block of mass m=1 kg has a speed v = 4 m//s at theta = 60^(@) on a circular track of radius R = 2 m as shown in figure. Size of the block is negligible. Coefficient of friction between block and the track is mu = 0.5 . The force of friction between the two is